georefid:2005-058190SEDIS Publication Catalogueana.macario@awi.dehttp://sedis.iodp.org/pub-catalogue/informationpointOfContact2011-06-23T00:00:00Zhttp://sedis.iodp.org/pub-catalogue/index.php?id=2005-058190Insights from the Ocean Drilling Program on shear and fluid-flow at the mega-faults between actively converging plates2004-01-01publicationgeorefid:2005-058190
Maltman, AlexUniversity of Wales, Institute of Geography and Earth Sciences, Aberystwyth, United KingdomauthorVannucchi, PaolaUniversity of Durham, United KingdomauthorGeological Society of London, London, United KingdompublisherdocumentHardcopyIn: Alsop, G. I. (editor), Holdsworth, R. E. (editor), McCaffrey, K. J. W. (editor), Hand, M. (editor), Flow processes in faults and shear zones224127-140The mega-faults between actively converging plates have recently been penetrated by the Ocean Drilling Program at three plate margins: Barbados, Costa Rica and Nankai. Cores, downhole instrumentation and detailed seismic imagery provide data which may be helpful in interpreting ancient examples of shear zones. The mega-faults, developed in poorly lithified sediments, separate major lithospheric plates yet are merely tens of metres in thickness. They respond to ongoing strain by intensifying inwards rather than propagating outward splays and can grow thinner because of continuing compaction. Surprisingly, lithological influence on the localization of fault propagation seems slight, but lithology determines the deformation style within the faults. The resulting structures show asymmetric distributions within the zones but, in these flat-lying structures, tend to show a downward increase in strain. Upper margins are typically gradational whereas lower boundaries can be strikingly abrupt. The fluid-transport behaviours are complex. In some situations the horizontal flux is very diffuse but centred around the fault. Some faults can efficiently channelize fluids--for distances of tens of kilometres--while at the same curbing flow across them. The fluid transport is clearly episodic and heterogeneous. Fingers of pressured fluid migrate within the fault zone, in patterns that constantly change through time.completedStructural geologyAntillesBarbadosCaribbean regionCentral AmericaCocos PlateCosta Ricadownhole methodsfaultsfluid dynamicsgeometrygeophysical methodsgeophysical profilesgeophysical surveysLeg 155Leg 170Lesser Antillesmeasurement-while-drillingNankai TroughNorth PacificNorthwest PacificOcean Drilling ProgramODP Site 1040ODP Site 1043ODP Site 808ODP Site 946Pacific Oceanplate convergenceplate tectonicsseismic methodsseismic profilesshearsurveysWest IndiesWest Pacificurn:org.iodp:exp:155
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